Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The C-C chemokines MIP-1 alpha, MCP-1, and RANTES, but not MIP-1 beta, induce the chemotaxis of NK and IL-2-activated NK (IANK) cells, as determined in microchemotaxis assay. Only RANTES and MCP-1, but not MIP-1 alpha were able to induce the chemokinesis of NK cells. In contrast, none of the C-C chemokines tested was able to induce the chemokinesis of IANK cells. IANK cell chemotaxis in response to MCP-1 or RANTES but not MIP-1 alpha, was inhibited by pertussis toxin (PT). In contrast, cholera toxin (CT) inhibited the ability of all three chemokines to induce the chemotaxis of IANK cells. IANK cells intoxicated with PT lost their ability to migrate in response to RANTES and MCP-1 but not MIP-1 alpha, whereas those intoxicated with CT lost their ability to migrate in response to the three C-C chemokines tested. These results suggest that guanine nucleotide binding (G) proteins are coupled to C-C chemokine receptors in IANK cells. Subsequently, we observed that MIP-1 alpha, MCP-1, and RANTES, but not MIP-1 beta, enhance the binding of guanosine 5'-O-(thiotriphosphate), and increase the hydrolysis of [32P]GTP in IANK cell membranes. Further analysis showed that MIP-1 alpha, RANTES, or MCP-1 did not enhance GTP binding in membranes prepared from IANK cells intoxicated with CT, whereas only RANTES and MCP-1 but not MIP-1 alpha lost their ability to enhance GTP binding to IANK cell membranes prepared from PT-intoxicated cells. The differential inhibitory activity of CT and PT suggests that C-C chemokine receptors are coupled to different G proteins in IANK cells.
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PMID:C-C chemokines induce the chemotaxis of NK and IL-2-activated NK cells. Role for G proteins. 752 19

Recent studies have shown that eosinophils are capable of generating and releasing cytokines, providing a novel biologic aspect of eosinophils for regulating allergic inflammation by an autocrine or paracrine mechanism. Eosinophils synthesize various cytokines; however, the physiologic stimuli that trigger eosinophils to generate cytokines have not been fully elucidated. We examined the effect of chemotactic agonists on eosinophil cytokine generation by employing the determination of IL-8 as the main parameter. Both C5a and FMLP stimulated eosinophils to release IL-8, whereas platelet-activating factor and C-C chemokines did not exert any significant effects. On a molar basis, C5a was two orders of magnitude more potent than FMLP. The generation of IL-8 by chemoattractants was absolutely dependent on the presence of cytochalasin B. Pertussis toxin completely attenuated C5a- and FMLP-induced IL-8 production, indicating the involvement of pertussis toxin-sensitive G-proteins in the signal-transduction process leading to these responses. Experiments of in situ hybridization and PCR amplification revealed that both C5a and FMLP promoted eosinophil IL-8 production through transcriptional gene activation. Pyrrolidine dithiocarbamate completely abrogated chemoattractant-induced IL-8 production, indicating the involvement of NF-kappa B in the cytoplasmic/nuclear signal-transduction process. Furthermore, chemoattractant-induced cytokine production was not limited to IL-8; C5a and FMLP but not platelet-activating factor induced significant secretion of granulocyte-macrophage-CSF from eosinophils. These results indicate that C5a and FMLP stimulate eosinophils to elaborate cytokines, which could be an important mechanism in the regulation of allergic inflammation.
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PMID:Chemotactic agonists induce cytokine generation in eosinophils. 752

Under certain physiological and pathological conditions, natural killer (NK) cells rapidly accumulate in tissues. Chemokines are an essential component of the current paradigm of leukocyte recruitment. The present study was designed to investigate the responsiveness of NK cells to the prototypic C-C chemokine, monocyte chemotactic protein-1 (MCP-1). MCP-1 induced migration across filters of interleukin (IL)-2-activated NK cells, whereas it was a weak attractant for unstimulated cells. Maximal induction of migration required a positive concentration gradient between the lower and the upper compartment of the chemotaxis chamber. Preliminary characterization of the MCP-1 receptor on NK cells indicated that the chemotactic response to MCP-1 was blocked by pre-treatment of cells with Bordetella pertussis toxin, and MCP-1 but not IL-8 displaced 125I-labeled MCP-1 from IL-2-activated NK cells. The related chemokines MCP-2 and MCP-3 were also active--though less potent--attractants for activated NK cells. Thus the spectrum of action of MCP-1, -2 and -3 encompasses NK cells and chemokines are likely to play a role in regulating extravasation of these cells.
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PMID:Induction of natural killer cell migration by monocyte chemotactic protein-1, -2 and -3. 780 52

Macrophage inflammatory proteins-1 (MIP-1) alpha and beta are members of the C-C branch of the platelet factor 4 superfamily of cytokines, recently designated the "chemokine" superfamily. It has been suggested that the major cellular targets for the biologic activities of the C-C chemokines are the mononuclear leukocytes. However, the original designation of murine MIP-1 proteins as inflammatory mediators was based on suggestions that they activated neutrophil functions such as chemotaxis, the respiratory burst, and degranulation. In this study, we have evaluated the ability of human (Hu) MIP-1 alpha and beta to affect purified human neutrophil function. Although both rHuMIP-1 alpha and -1 beta stimulated significant calcium mobilization in human monocytes, only HuMIP-1 alpha exerted a detectable effect on neutrophils. HuMIP-1 alpha stimulated a small, dose-dependent increase in intracellular calcium, which was accompanied by a simultaneous change in right-angle light scatter, the latter indicating induction of shape change. While the effect of HuMIP-1 alpha on calcium mobilization in neutrophils was small when compared with that elicited by IL-8 or Gro alpha, it had similar characteristics to that by other receptor-dependent neutrophil agonists in that it was dependent on pertussis toxin-sensitive G proteins and on both mobilization of calcium from intracellular sources as well as influx from the extracellular environment. In addition, stimulation of neutrophils with HuMIP-1 alpha led to desensitization to subsequent additions of HuMIP-1 alpha. The stimulatory effect of HuMIP-1 alpha on neutrophil calcium mobilization and shape change was not coupled to other standard measures of neutrophil effector function. For instance, neither HuMIP-1 alpha nor -1 beta had any detectable stimulatory effect on the Na+/H+ antiport, degranulation, actin polymerization, or chemotaxis. Moreover, although HuMIP-1 alpha binding could easily be measured on monocytes or monocytic cell lines, the number of sites were too few to characterize on neutrophils by the same technique. Taken together, these results show that neither HuMIP-1 alpha nor -1 beta stimulate significant neutrophil activation and support the concept that the biologic effects of members of the C-C branch of the platelet factor 4 superfamily are not primarily directed toward neutrophils.
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PMID:Uncoupling of early signal transduction events from effector function in human peripheral blood neutrophils in response to recombinant macrophage inflammatory proteins-1 alpha and -1 beta. 848 47

Members of the C-C family of chemotactic cytokines promote chemotaxis and adhesion of leukocytes. In this study, we have identified a murine T cell hybrid that expresses receptors to the chemotactic cytokine monocyte chemotactic protein-1 (MCP-1). This cell line was used to examine MCP-1 receptor-mediated signal transduction events in a homologous system in the absence of interference with other receptors. Our results show that in the 3B4 M1.9 T cell hybrid, MCP-1 receptors mediate intracellular calcium mobilization and extracellular calcium import without detectable increases in total water-soluble inositol phosphates. In addition, MCP-1 regulates the tyrosine phosphorylation of specific substrates at 42 and 44 kDa and induces mobility shift of p42/44 mitogen-activated protein kinases. MCP-1-mediated calcium responses, tyrosine phosphorylation, and the electrophoretic mobility shift of p42/44 mitogen-activated protein kinases can be inhibited by pretreatment of cells with pertussis toxin, indicating a role for Gi-like G proteins in coupling the MCP-1R to signal transduction.
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PMID:Early signal transduction by the receptor to the chemokine monocyte chemotactic protein-1 in a murine T cell hybrid. 856 34

The C-C chemokines are major mediators of chemotaxis of monocytes and some T cells in inflammatory reactions. The pathways by which the C-C chemokine receptors activate phospholipase C (PLC) were investigated in cotransfected COS-7 cells. The C-C chemokine receptor-1 (CKR-1), the MCP-1 receptor-A (MCP-1Ra), and MCP-1Rb can reconstitute ligand-induced accumulation of inositol phosphates with PLC beta2 in a pertussis toxin-sensitive manner, presumably through G beta gamma released from the Gi proteins. However, these three receptors demonstrated different specificity in coupling to the alpha subunits of the Gq class. While none of the receptors can couple to Galphaq/11, MCP-1Rb can couple to both Galpha14 and Galpha16, but its splicing variant, MCP-1Rb, cannot. Since MCP-1Ra and -b differ only in their C-terminal intracellular domains, the C-terminal ends of MCP-1Rs determine G protein coupling specificity. CKR-1 can couple to Galpha14 but not to Galpha16, suggesting some of the C-C chemokine receptors, unlike the C-X-C chemokine receptors, discriminate against Galpha16, a hematopoietic-specific Galpha subunit. The intriguing specificity in coupling of the Gq class of G proteins implies that the chemokines may be involved in some distinct functions in vivo. The commonality of the chemokine receptors in coupling to the Gi-Gbetagamma-PLC beta2 pathway provides a potential target for developing broad spectrum anti-inflammatory drugs.
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PMID:Selective G protein coupling by C-C chemokine receptors. 862 27

2-Substituted histamines, which are cationic-amphiphilic, activate pertussis toxin-sensitive G-proteins by a receptor-independent mechanism. Lipophilicity is an important determinant for this G-protein activation, but the influence of basicity remained unclear. We prepared four imidazole-containing compounds and nine alkylamines with different basicity and studied their effcts on high-affinity GTP hydrolysis in HL-60 membranes. The substances contained a lipophilic domain (L) and polar (P) and/or cationic (C) domains. Compared to 2-substituted histamines (L-P-C), the corresponding L-C-P type compounds were less potent and effective which, however, were still more active than L-P-P type substances. Among alkylamines, 2-octadecylaminoethyl-N,N-diethylamine (11) was the most potent GTPase activator (pEC50 = 5.7; 100% stimulation above basal). Conversely, 3-(5-hydroxyundecylamino)propylamine (15) was the most efficient compound (pEC50 = 4.3; 160% stimulation above basal). Compared to compounds 11 and 15, which belong to the L-C-C type, the corresponding L-P-C type compounds were less active. Thus, among 2-substituted histamines and alkylamines, a terminal cationic domain is critical for potent and/or effective receptor-independent G-protein activation. An L-C-X structure (X = P or C) is more favorable for G-protein activation than a L-P-X structure. Potency and efficiency of receptor-independent G-protein activators are independently determined drug parameters.
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PMID:Cationic amphiphiles with G-protein-stimulatory activity: studies on the role of the basic domain in the activation process. 872 Aug 1

NK cells are present mostly in blood and spleen but under certain pathological and physiological conditions rapidly accumulate at extrahematic sites. The present study investigates the responsiveness of NK cells to C-C chemokines and the mechanisms of emigration from the bloodstream. MCP-1 induced migration across polycarbonate filters of IL-2-activated NK cells, whereas it was a weak attractant for unstimulated cells. The related chemokines MCP-2 and MCP-3 were also active. IL-2-activated NK cells showed specific binding sites for labeled MCP-1, and cell migration was inhibited by both cholera and Bordetella pertussis toxins. In agreement with functional assays the expression of mRNA specific for MCP-1 receptors was detectable only in IL-2-activated NK cells. The ability of NK cells to respond to MCP-1 and related chemokines may be one important determinant of NK cell emigration and recruitment in tissues.
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PMID:Migratory Response of Human NK Cells to Monocyte-Chemotactic Proteins 881 55

The ability of CD8 T cells derived from human immunodeficiency virus (HIV)-infected patients to produce soluble HIV-suppressive factor(s) (HIV-SF) has been suggested as an important mechanism of control of HIV infection in vivo. The C-C chemokines RANTES, MIP-1 alpha and MIP-1 beta were recently identified as the major components of the HIV-SF produced by both immortalized and primary patient CD8 T cells. Whereas they potently inhibit infection by primary and macrophage-tropic HIV-1 isolates, T-cell line-adapted viral strains tend to be insensitive to their suppressive effects. Consistent with this discrepancy, two distinct chemokine receptors, namely, CXCR4 (ref. 7) and CCR5 (ref. 8), were recently identified as potential co-receptors for T-cell line-adapted and macrophage-tropic HIV-1 isolates, respectively. Here, we demonstrate that the third hypervariable domain of the gp 120 envelope glycoprotein is a critical determinant of the susceptibility of HIV-1 to chemokines. Moreover, we show that RANTES, MIP-1 alpha and MIP-1 beta block the entry of HIV-1 into cells and that their antiviral activity is independent of pertussis toxin-sensitive signal transduction pathways mediated by chemokine receptors. The ability of the chemokines to block the early steps of HIV infection could be exploited to develop novel therapeutic approaches for AIDS.
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PMID:The V3 domain of the HIV-1 gp120 envelope glycoprotein is critical for chemokine-mediated blockade of infection. 909 60

The newly described products of 5-hydroxyeicosanoid dehydrogenase, 5-oxo-6,8,11,14-eicosatetraenoic acid (ETE) and 5-oxo-15(OH)ETE, induced directional migration and actin polymerization of human monocytes in vitro. At peak concentrations, the two eicosanoids had a chemotactic activity of about 40% of that observed in the presence of an optimal concentration of FMLP and twice the activity elicited by the related eicosanoid 5-hydroxy-6,8,11,14-eicosatetraenoic acid (5-HETE). 15-Oxo-ETE showed a very low but detectable chemotactic activity. All of these chemotactic responses were blocked by Bordetella pertussis toxin, but were resistant to LY255283, a leukotriene B4 (LTB4) receptor antagonist. 5-Oxo-ETEs and 5-HETE induced homologous desensitization of chemotactic response, but did not cross-desensitize to other chemotactic agonists (e.g., monocyte chemotactic protein (MCP)-1 and LTB4). 5-Oxo-ETEs increased in a synergistic fashion the monocyte migration to MCP-1 and MCP-3. In the same range of concentrations, 5-oxo-ETE increased MCP-1-induced release of arachidonic acid from labeled monocytes. No synergistic interaction was observed when FMLP was used as chemoattractant. Thus, this study identifies monocytes as cells responsive to 5-oxo-ETEs and shows that monocyte activation by 5-oxo-ETEs occurs through an LTB4 receptor-independent mechanism that associates with pertussis toxin-sensitive G proteins. The synergistic interaction between 5-oxo-ETEs and C-C chemokines, two families of mediators both synthesized by phagocytic cells, may be relevant in vivo for the regulation of monocyte accumulation at sites of allergic and inflammatory reactions.
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PMID:Stimulating properties of 5-oxo-eicosanoids for human monocytes: synergism with monocyte chemotactic protein-1 and -3. 890 47


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